CN101142624A - Method for recording data in holographic data storage systems - Google Patents

Abstract

The invention relates to a method for recording data in a holographic recording medium (14) in a holographic data storage system,. This method comprises the steps of: - recording a first hologram (Hl, Hl ') through a first side (141) of said holographic recording medium, - rotating said holographic recording medium (14), - recording a second hologram (H2, H2') through a second side (142) of same holographic recording medium.

Description

Method for recording data in holographic data storage system

Technical field

The present invention relates to method for recording data in a kind of holographic recording medium in holographic data storage system.

The invention particularly relates to the data storage capacity that improves in the holographic data storage system, this holographic data storage system promptly utilizes the reflection holography data-storage system of reflective spatial light modulator.

Background technology

Total institute is known, and the holographic data storage technology has high storage density, fast parallel access and the quick search in large database and the potentiality of data encryption of acquisition.In addition, this technology also is applicable to compact and portable data storage.

Yet what be concerned about is the data capacity that improves the holographic memory medium in the holographic data storage system always.

For this reason, a solution is that enforcement is multiplexed, so that obtain and the as many hologram pattern of multiplexer channel.

The multiplexed the whole bag of tricks that can utilize is realized.

A kind of method is called " angle is multiplexed ".According to this method, change the angle of reference beam, thereby write down a plurality of holograms in a same position of recording medium with respect to recording medium, each hologram is corresponding to the reference beam of given angle.

In " wavelength multiplexing ", adjust the wavelength of radiation laser beam, so that write down different holograms in the same position of holographic medium.

" be offset multiplexed (shift multiplexing) " and be to write down one group of hologram by recording medium is offset with respect to optical unit.In case write down hologram in the position that recording medium is given, just make this recording medium skew certain distance, this distance is less than the width of hologram.Be offset and multiplexedly only when spherical wave is interfered, just can carry out.

Certainly, the combination of different multichannel multiplexing methods also is possible.

Yet,, still wish to obtain to have the more holographic recording medium of high storage capacity although multiplexed have a good effect.

Summary of the invention

The purpose of this invention is to provide method for recording data in a kind of holographic recording medium in holographic data storage system, it helps further to improve the data storage capacity of described holographic recording medium, and is compatible mutually with some multichannel multiplexing method simultaneously.

For this reason, the present invention proposes method for recording data in a kind of holographic recording medium in holographic data storage system, may further comprise the steps:

-pass first of described holographic recording medium record first hologram,

The described holographic recording medium of-rotation,

-pass second of identical holographic recording medium record second hologram.

Understand easily, the method according to this invention can make the memory capacity of recording medium improve twice.

In a particular embodiment, described hologram is the wavelength multiplexing hologram.

The maximum quantity that so just allows the wavelength multiplexing hologram is limited by the wavelength coverage of adjustable laser system, rather than is limited by material properties, for example the dynamic range of material.

In a preferred embodiment, with the wavelength between the recording wavelength that is in the described second wavelength multiplexing hologram, write down the described first wavelength multiplexing hologram.

In optional embodiment, described hologram is the multiplexed hologram of skew.Yet, as mentioned above, need spherical wave in this case.

These and other aspect of the present invention is set forth in reference hereinafter described embodiment, thereby it is understood.

Description of drawings

Referring now to accompanying drawing, more detailed description the present invention by way of example, in the accompanying drawings:

Fig. 1 a has represented the holographic data storage system after passing record data of holographic recording medium;

Fig. 1 b has represented postrotational holographic recording medium;

Fig. 1 c has represented the holographic data storage system after passing the two sides record data of holographic recording medium;

Fig. 2 has represented to read the embodiment of the holographic data storage system in the process;

Fig. 3 has represented for being offset the multiplexed holographic data storage system that designs.

Embodiment

Optical device shown in Fig. 1 a is to be used at holographic recording medium 14 record data and from the holographic data storage system of this medium reading of data.

This optical device further comprises radiation source 10, collimating apparatus 11, polarization beam apparatus 12, quarter-wave plate 13, reflective spatial light modulator 15 and sniffer 16.This optical device also comprises the device that is used to hold recording medium, not shown this device in Fig. 1 a and 1c.These storing apparatus for example are the conventional worktable that uses in CD or the DVD player.

In recording process, as shown in Figure 1a, this radiation source 10 generates radiation laser beam, utilizes collimating apparatus 11 that this radiation laser beam is converted to parallel beam.Utilize polarization beam apparatus 12 that this parallel beam is guided towards recording medium 14 then.After this parallel beam passed polarization beam apparatus 12, it had linear polarization.This linearly polarized light beam passes quarter-wave plate 13 then, produces circularly polarized light beam.This circularly polarized light beam passes recording medium 14 and arrives reflective spatial light modulator 15.The signal that is reflected is circularly polarized thus, and has the information that sends to reflective spatial light modulator 15.This reflected signal passes first 141 then and arrives recording medium 14, and interferes with the circularly polarized light beam that just passes quarter-wave plate 13.This interference produces information pattern in recording medium 14, and has write down the first hologram H1 thus.Interference can occur in from the light beam of reflective spatial light modulator 15 and just pass between the light beam of quarter-wave plate 13, and this is because these two light beams have identical polarization state.The light beam that has just passed quarter-wave plate 13 plays the effect of reference beam, and plays the effect of signal beams from the light beam of reflective spatial light modulator 15.

This reflective spatial light modulator 15 for example can be reflective ferroelectric liquid on the silicon (FLCOS) spatial light modulator.The commercialization of this spatial light modulator is particularly produced by " BoulderNonlinear Systems " and " Displaytech " company.This reflective spatial light modulator 15 can also be reflective digital micromirror device (DMD) spatial light modulator.This spatial light modulator is commercialization also, is particularly produced by " Productivity Systems " company.This reflective spatial light modulator 15 can also be the combination of transmissive spatial light modulator and catoptron, yet this scheme is not very preferred, and this is because the efficient of transmissive spatial light modulator is lower than the efficient of reflective spatial light modulator.

In order to improve the memory capacity of recording medium 14, can implement wavelength multiplexing, comprise that the wavelength by changing radiation laser beam writes down another one hologram at least in same position.Optical device according to Fig. 1 a and 1c is particularly suitable for wavelength multiplexing.In fact, in order to write down the hologram of larger amt in the same position of recording medium 14, the selection of wavelength should be low as much as possible.The selection of wavelength represents can be used in the gap with between two continuous wavelengths of acceptable two holograms of record of crosstalking.The specifying information of relevant wavelength multiplexing can find " holographic data storage (Holographic data storage) " that 2000 " Spinger light science series is from book (Spinger series in optical sciences) " delivers at H.J.Coufal, D.Psaltis, G.T.Sincerbox (Eds.).

In case in recording medium 14, write down the first hologram H1, so just can write down another first hologram H1 ' by recording medium 14 is moved with respect to optical pick-up unit, this optical pick-up unit comprises sniffer 16, polarization beam apparatus 12, quarter-wave plate 13 and reflective spatial light modulator 15.Optionally, optical pick-up unit is moved with respect to this recording medium 14 along the direction that is parallel to recording medium 14.

Writing down the first hologram H1 and H1 ' afterwards, this holographic recording medium 14 of rotation shown in Fig. 1 b, and it is placed in this optical device once more is with two second hologram H2 shown in the record diagram 1c and H2 '.The method of record second hologram is identical with the method that is used to write down the first hologram H1 and H1 ' in recording medium 14, except in Fig. 1 c being passes second 142 of recording medium 14 to realize writing down.

Shown in Figure 2 reading in the process, radiation source 10 generates the radiation laser beam with setted wavelength, utilizes collimating apparatus 11 that it is become parallel beam.Then utilize polarization beam apparatus 12 that this parallel beam is guided towards recording medium 14.After this parallel beam passed polarization beam apparatus 12, it had linear polarization.This linearly polarized light beam passes quarter-wave plate 13 then, generates circularly polarized light beam.This circularly polarized light beam arrives recording medium 14, and is reflected by the conduct first hologram H1 of record in the described recording medium 14 and the information pattern of the second hologram H2 '.Generate first reconstructed signal beam thus, it has the information corresponding to the first hologram H1 that utilizes identical wavelength record.This reconstructed signal beam passes quarter-wave plate 13, generates the light beam have perpendicular to by the linear polarization of polarization beam apparatus 12 light beams deflected polarization states.Therefore, this linear polarization reconstructed signal beam passes polarization beam apparatus 12, and forms real image thus on sniffer 16.Read the first hologram H1 that is write down thus.

Should be noted that the second hologram H2 ' also produces image, this image is the virtual image that forms with the real image that is obtained by the first hologram H1.Yet in the hologram image of reality, each pixel of spatial light modulator 15 all is imaged on the pixel of sniffer 16, and each pixel of the virtual image covers on a large amount of pixels on the described sniffer 16, can cause the DC skew.Therefore, be cost with the signal to noise ratio (S/N ratio), capacity increase 2 times.

By with the wavelength between the wavelength that is in the hologram that passes recording medium 14 another sides records, pass a recorded hologram of recording medium 14, can reduce crosstalking between the real image and the virtual image thus, for example the another side that passes recording medium 14 one sides and pass recording medium 14 with wavelength 401nm, 403nm, 405nm with wavelength 400nm, 402nm, 404nm.

Nature in order to read the described second hologram H2, H2 ', must rotate recording medium 14, thereby change the corresponding virtual image into form on the sniffer 16 real image.

Utilize the multiplexed memory capacity that also can improve recording medium 14 of skew.Fig. 3 has represented to be used for the optical device of this purpose.

Except reference Fig. 1 a and the described element of 1c, this optical device also comprises first lens 21 and second lens 22.These first lens 21 are arranged between polarization beam apparatus 12 and the recording medium 14, and second lens 22 are arranged between recording medium 14 and the reflective spatial light modulator 15.

In recording process, utilize first lens 21 that the radiation laser beam that passes quarter-wave plate 13 is focused in the recording medium 14.The spherical wave light beam is focused in the recording medium 14.Utilize second lens 22 to make this spherical wave parallel beam then, arrive reflective spatial light modulator 15 then, in this modulator, generate signal beams.On the path of returning from spatial light modulator 15, utilize second lens 22 that signal beams is focused on the recording medium 14.Therefore, spherical wave signal beams and spherical wave reference beam are at recording medium 14 internal interferences, and the generation information pattern, and this pattern is corresponding to first hologram that will write down.

The spherical wave light beam can utilize skew multiplexed in the situation of recording medium 14 internal interferences.Be offset multiplexed being and write down second group of hologram by recording medium is offset with respect to optical pick-up unit.In case the given position at recording medium has write down first hologram, just can make this recording medium move distance less than the hologram width, can write down another first hologram then.Be offset and multiplexedly only when spherical wave is interfered, just carry out.

After having rotated the holographic recording medium, can write down one group of second hologram with the method identical with described first hologram of record.

Advantageously, skew is multiplexed can be used at recording medium 14 record data with combination wavelength multiplexing.

In reading process, the spherical wave light beam is sent towards recording medium 14, and this light beam is reflected by information pattern.Shown in Fig. 1 c, generate reconstructed signal beam, this light beam arrives sniffer 16 then.By this recording medium 14 is placed on same position, and generate radiation laser beam, just can realize reading the hologram that utilizes setted wavelength and write down with respect to the given position of optical pick-up unit at recording medium 14 with identical wavelength.Should be noted that this medium the record after, before can being read, need not the rotation.Obtaining real image under the situation of not rotating this medium 14 is because utilize first lens 21 that this virtual image has been become real image.

Any Reference numeral in following claims should not constitute the qualification to claim.What should understand is, uses verb " to comprise " and conjugation is not got rid of the existence of any other element of any claim outside having limited.The existence that word " " before the element or " one " do not get rid of a plurality of this elements.

Claims (11)

1. the method for holographic recording medium (14) identifying recording layer in holographic data storage system may further comprise the steps:

-pass described holographic recording medium first (141) record first hologram (H1, H1 '),

-rotation described holographic recording medium (14),

-pass identical holographic recording medium second (142) record second hologram (H2, H2 ').

2. method according to claim 1, wherein said hologram are the wavelength multiplexing holograms.

3. method according to claim 2 wherein writes down the described first wavelength multiplexing hologram with the wavelength between the recording wavelength that is in the described second wavelength multiplexing hologram.

4. method according to claim 1, wherein said hologram are the multiplexed holograms of skew.

5. one kind is used for reading the method for method according to claim 1 in the data of holographic recording medium (14) record, may further comprise the steps:

-read first hologram (H1, H1 ') of one side (141) record that passes described holographic recording medium,

-rotation described holographic recording medium (14),

Second hologram (H2, H2 ') of-reading and recording on the another side (142) of identical holographic recording medium.

6. holographic data storage system, it comprises holographic recording medium (14), wherein pass first (141) and second (142) face record first (H1, H1 ') and second (H2, H2 ') hologram of described holographic recording medium respectively, described holographic data storage system comprises the device that is used to filter the virtual image that forms when reading described hologram.

7. holographic data storage system according to claim 6, the wherein said device that is used to filter is a multiplex machine.

8. holographic data storage system according to claim 7, wherein said multiplex machine are the wavelength multiplexing devices.

9. holographic data storage system according to claim 8, wherein the wavelength multiplexing device is the device that is used for writing down with the wavelength between the recording wavelength that is in the second wavelength multiplexing hologram the first wavelength multiplexing hologram.

10. holographic data storage system according to claim 7, wherein said multiplex machine are the skew multiplex machines.

11. a holographic, it comprises holographic recording medium (14), wherein passes first (141) and second (142) face record first (H1, H1 ') and second (H2, H2 ') hologram of described holographic recording medium respectively.

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